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Reference Guide
TGenCollectionStreamer.cxx
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1 // @(#)root/io:$Id$
2 // Author: Markus Frank 28/10/04
3 
4 /*************************************************************************
5  * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
6  * All rights reserved. *
7  * *
8  * For the licensing terms see $ROOTSYS/LICENSE. *
9  * For the list of contributors see $ROOTSYS/README/CREDITS. *
10  *************************************************************************/
11 
12 /*
13 \class TGenCollectionStreamer
14 \ingroup IO
15 
16 Streamer around an arbitrary container, which implements basic
17 functionality and iteration.
18 
19 In particular this is used to implement splitting and abstract
20 element access of any container. Access to compiled code is necessary
21 to implement the abstract iteration sequence and functionality like
22 size(), clear(), resize(). resize() may be a void operation.
23 **/
24 
25 #include "TGenCollectionStreamer.h"
26 #include "TClassEdit.h"
27 #include "TError.h"
28 #include "TROOT.h"
29 #include "TStreamerInfo.h"
30 #include "TStreamerElement.h"
31 #include "Riostream.h"
33 
35  : TGenCollectionProxy(copy), fReadBufferFunc(&TGenCollectionStreamer::ReadBufferDefault)
36 {
37  // Build a Streamer for an emulated vector whose type is 'name'.
38 }
39 
42 {
43  // Build a Streamer for a collection whose type is described by 'collectionClass'.
44 }
45 
46 TGenCollectionStreamer::TGenCollectionStreamer(const ::ROOT::TCollectionProxyInfo &info, TClass *cl)
48 {
49  // Build a Streamer for a collection whose type is described by 'collectionClass'.
50 }
51 
53 {
54  // Standard destructor.
55 }
56 
58 {
59  // Virtual copy constructor.
60  if (!fValue.load()) Initialize(kFALSE);
61  return new TGenCollectionStreamer(*this);
62 }
63 
64 template <typename T>
66 
67 template <>
69 {
70  return &itm.boolean;
71 }
72 
73 template <>
75 {
76  return &itm.s_char;
77 }
78 
79 template <>
81 {
82  return &itm.s_short;
83 }
84 
85 template <>
87 {
88  return &itm.s_int;
89 }
90 
91 template <>
93 {
94  return &itm.s_long;
95 }
96 
97 template <>
99 {
100  return &itm.s_longlong;
101 }
102 
103 template <>
105 {
106  return &itm.flt;
107 }
108 
109 template <>
111 {
112  return &itm.dbl;
113 }
114 
115 template <>
117 {
118  return &itm.u_char;
119 }
120 
121 template <>
123 {
124  return &itm.u_short;
125 }
126 
127 template <>
129 {
130  return &itm.u_int;
131 }
132 
133 template <>
135 {
136  return &itm.u_long;
137 }
138 
139 template <>
141 {
142  return &itm.u_longlong;
143 }
144 
145 template <typename From, typename To>
147 {
148  From *r = getaddress<From>( *read );
149  To *w = getaddress<To>( *write );
150  for(int i = 0; i < nElements; ++i) {
151  // getvalue<To>( write[i] ) = (To) getvalue<From>( read[i] );
152  w[i] = (To)r[i];
153  }
154 }
155 
156 template <typename From>
158 {
159  switch(writeType) {
160  case kBool_t:
161  ConvertArray<From,bool>(read,write,nElements);
162  break;
163  case kChar_t:
164  ConvertArray<From,Char_t>(read,write,nElements);
165  break;
166  case kShort_t:
167  ConvertArray<From,Short_t>(read,write,nElements);
168  break;
169  case kInt_t:
170  ConvertArray<From,Int_t>(read,write,nElements);
171  break;
172  case kLong_t:
173  ConvertArray<From,Long64_t>(read,write,nElements);
174  break;
175  case kLong64_t:
176  ConvertArray<From,Long64_t>(read,write,nElements);
177  break;
178  case kFloat_t:
179  ConvertArray<From,Float_t>(read,write,nElements);
180  break;
181  case kFloat16_t:
182  ConvertArray<From,Float16_t>(read,write,nElements);
183  break;
184  case kDouble_t:
185  ConvertArray<From,Double_t>(read,write,nElements);
186  break;
187  case kUChar_t:
188  ConvertArray<From,UChar_t>(read,write,nElements);
189  break;
190  case kUShort_t:
191  ConvertArray<From,UShort_t>(read,write,nElements);
192  break;
193  case kUInt_t:
194  ConvertArray<From,UInt_t>(read,write,nElements);
195  break;
196  case kULong_t:
197  ConvertArray<From,ULong_t>(read,write,nElements);
198  break;
199  case kULong64_t:
200  ConvertArray<From,ULong64_t>(read,write,nElements);
201  break;
202  case kDouble32_t:
203  ConvertArray<From,Double32_t>(read,write,nElements);
204  break;
205  case kchar:
206  case kNoType_t:
207  case kOther_t:
208  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", writeType);
209  }
210 }
211 
212 void TGenCollectionStreamer::ReadPrimitives(int nElements, TBuffer &b, const TClass *onFileClass)
213 {
214  // Primitive input streamer.
215  size_t len = fValDiff * nElements;
216  char buffer[8096];
217  Bool_t feed = false;
218  void* memory = 0;
219  StreamHelper* itmstore = 0;
220  StreamHelper* itmconv = 0;
221  fEnv->fSize = nElements;
222  switch (fSTL_type) {
223  case ROOT::kSTLvector:
224  if (fVal->fKind != kBool_t) {
226  fEnv->fIdx = 0;
227 
229  iterators.CreateIterators(fEnv->fObject);
230  itmstore = (StreamHelper*)iterators.fBegin;
231  fEnv->fStart = itmstore;
232  break;
233  }
234  default:
235  feed = true;
236  itmstore = (StreamHelper*)(len < sizeof(buffer) ? buffer : memory =::operator new(len));
237  break;
238  }
239  fEnv->fStart = itmstore;
240 
241  StreamHelper *itmread;
242  int readkind;
243  if (onFileClass) {
244  readkind = onFileClass->GetCollectionProxy()->GetType();
245  itmconv = (StreamHelper*) ::operator new( nElements * onFileClass->GetCollectionProxy()->GetIncrement() );
246  itmread = itmconv;
247  } else {
248  itmread = itmstore;
249  readkind = fVal->fKind;
250  }
251  switch (readkind) {
252  case kBool_t:
253  b.ReadFastArray(&itmread->boolean , nElements);
254  break;
255  case kChar_t:
256  b.ReadFastArray(&itmread->s_char , nElements);
257  break;
258  case kShort_t:
259  b.ReadFastArray(&itmread->s_short , nElements);
260  break;
261  case kInt_t:
262  b.ReadFastArray(&itmread->s_int , nElements);
263  break;
264  case kLong_t:
265  b.ReadFastArray(&itmread->s_long , nElements);
266  break;
267  case kLong64_t:
268  b.ReadFastArray(&itmread->s_longlong, nElements);
269  break;
270  case kFloat_t:
271  b.ReadFastArray(&itmread->flt , nElements);
272  break;
273  case kFloat16_t:
274  b.ReadFastArrayFloat16(&itmread->flt, nElements);
275  break;
276  case kDouble_t:
277  b.ReadFastArray(&itmread->dbl , nElements);
278  break;
279  case kUChar_t:
280  b.ReadFastArray(&itmread->u_char , nElements);
281  break;
282  case kUShort_t:
283  b.ReadFastArray(&itmread->u_short , nElements);
284  break;
285  case kUInt_t:
286  b.ReadFastArray(&itmread->u_int , nElements);
287  break;
288  case kULong_t:
289  b.ReadFastArray(&itmread->u_long , nElements);
290  break;
291  case kULong64_t:
292  b.ReadFastArray(&itmread->u_longlong, nElements);
293  break;
294  case kDouble32_t:
295  b.ReadFastArrayDouble32(&itmread->dbl, nElements);
296  break;
297  case kchar:
298  case kNoType_t:
299  case kOther_t:
300  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", readkind);
301  }
302  if (onFileClass) {
303  switch (readkind) {
304  case kBool_t:
305  DispatchConvertArray<bool>(fVal->fKind, itmread, itmstore, nElements);
306  break;
307  case kChar_t:
308  DispatchConvertArray<Char_t>(fVal->fKind, itmread, itmstore, nElements);
309  break;
310  case kShort_t:
311  DispatchConvertArray<Short_t>(fVal->fKind, itmread, itmstore, nElements);
312  break;
313  case kInt_t:
314  DispatchConvertArray<Int_t>(fVal->fKind, itmread, itmstore, nElements);
315  break;
316  case kLong_t:
317  DispatchConvertArray<Long_t>(fVal->fKind, itmread, itmstore, nElements);
318  break;
319  case kLong64_t:
320  DispatchConvertArray<Long64_t>(fVal->fKind, itmread, itmstore, nElements);
321  break;
322  case kFloat_t:
323  DispatchConvertArray<Float_t>(fVal->fKind, itmread, itmstore, nElements);
324  break;
325  case kFloat16_t:
326  DispatchConvertArray<Float16_t>(fVal->fKind, itmread, itmstore, nElements);
327  break;
328  case kDouble_t:
329  DispatchConvertArray<Double_t>(fVal->fKind, itmread, itmstore, nElements);
330  break;
331  case kUChar_t:
332  DispatchConvertArray<UChar_t>(fVal->fKind, itmread, itmstore, nElements);
333  break;
334  case kUShort_t:
335  DispatchConvertArray<UShort_t>(fVal->fKind, itmread, itmstore, nElements);
336  break;
337  case kUInt_t:
338  DispatchConvertArray<UInt_t>(fVal->fKind, itmread, itmstore, nElements);
339  break;
340  case kULong_t:
341  DispatchConvertArray<ULong_t>(fVal->fKind, itmread, itmstore, nElements);
342  break;
343  case kULong64_t:
344  DispatchConvertArray<ULong64_t>(fVal->fKind, itmread, itmstore, nElements);
345  break;
346  case kDouble32_t:
347  DispatchConvertArray<Double_t>(fVal->fKind, itmread, itmstore, nElements);
348  break;
349  case kchar:
350  case kNoType_t:
351  case kOther_t:
352  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", readkind);
353  }
354  ::operator delete((void*)itmconv);
355  }
356  if (feed) { // need to feed in data...
357  fEnv->fStart = fFeed(itmstore,fEnv->fObject,fEnv->fSize);
358  if (memory) {
359  ::operator delete(memory);
360  }
361  }
362 }
363 
364 void TGenCollectionStreamer::ReadObjects(int nElements, TBuffer &b, const TClass *onFileClass)
365 {
366  // Object input streamer.
367  Bool_t vsn3 = b.GetInfo() && b.GetInfo()->GetOldVersion() <= 3;
368  size_t len = fValDiff * nElements;
369  StreamHelper* itm = 0;
370  char buffer[8096];
371  void* memory = 0;
372 
373  TClass* onFileValClass = (onFileClass ? onFileClass->GetCollectionProxy()->GetValueClass() : 0);
374 
375  fEnv->fSize = nElements;
376  switch (fSTL_type) {
377  // Simple case: contiguous memory. get address of first, then jump.
378  case ROOT::kSTLvector:
379 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)(((char*)itm) + fValDiff*idx); { x ;} ++idx;} break;}
381  fEnv->fIdx = 0;
382 
383  {
385  iterators.CreateIterators(fEnv->fObject);
386  itm = (StreamHelper*)iterators.fBegin;
387  }
388  fEnv->fStart = itm;
389  switch (fVal->fCase) {
390  case kIsClass:
391  DOLOOP(b.StreamObject(i, fVal->fType, onFileValClass ));
392  case EProperty(kBIT_ISSTRING):
393  DOLOOP(i->read_std_string(b));
394  case EProperty(kIsPointer | kIsClass):
395  DOLOOP(i->set(b.ReadObjectAny(fVal->fType)));
397  DOLOOP(i->read_std_string_pointer(b));
399  DOLOOP(i->read_tstring_pointer(vsn3, b));
400  }
401 #undef DOLOOP
402  break;
403 
404  // No contiguous memory, but resize is possible
405  // Hence accessing objects using At(i) should be not too much an overhead
406  case ROOT::kSTLlist:
408  case ROOT::kSTLdeque:
409 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)TGenCollectionProxy::At(idx); { x ;} ++idx;} break;}
411  fEnv->fIdx = 0;
412  fEnv->fStart = 0;
413  switch (fVal->fCase) {
414  case kIsClass:
415  DOLOOP(b.StreamObject(i, fVal->fType, onFileValClass));
416  case kBIT_ISSTRING:
417  DOLOOP(i->read_std_string(b));
418  case kIsPointer | kIsClass:
419  DOLOOP(i->set(b.ReadObjectAny(fVal->fType)));
420  case kIsPointer | kBIT_ISSTRING:
421  DOLOOP(i->read_std_string_pointer(b));
423  DOLOOP(i->read_tstring_pointer(vsn3, b));
424  }
425 #undef DOLOOP
426  break;
427 
428  // Rather troublesome case: Objects can only be fed into the container
429  // Once they are created. Need to take memory from stack or heap.
430  case ROOT::kSTLmultiset:
431  case ROOT::kSTLset:
434 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)(((char*)itm) + fValDiff*idx); { x ;} ++idx;}}
435  fEnv->fStart = itm = (StreamHelper*)(len < sizeof(buffer) ? buffer : memory =::operator new(len));
436  fConstruct(itm,nElements);
437  switch (fVal->fCase) {
438  case kIsClass:
439  DOLOOP(b.StreamObject(i, fVal->fType, onFileValClass));
442  break;
443  case EProperty(kBIT_ISSTRING):
444  DOLOOP(i->read_std_string(b))
447  break;
448  case EProperty(kIsPointer | kIsClass):
449  DOLOOP(i->set(b.ReadObjectAny(fVal->fType)));
451  break;
453  DOLOOP(i->read_std_string_pointer(b))
455  break;
457  DOLOOP(i->read_tstring_pointer(vsn3, b));
459  break;
460  }
461 #undef DOLOOP
462  break;
463  default:
464  break;
465  }
466  if (memory) {
467  ::operator delete(memory);
468  }
469 }
470 
472 {
473  // Input streamer to convert a map into another collection
474 
475  Bool_t vsn3 = b.GetInfo() && b.GetInfo()->GetOldVersion() <= 3;
476  size_t len = fValDiff * nElements;
477  StreamHelper* itm = 0;
478  char buffer[8096];
479  void* memory = 0;
480 
482  R__ASSERT(pinfo);
484 
485  int nested = 0;
486  std::vector<std::string> inside;
487  TClassEdit::GetSplit(pinfo->GetName(), inside, nested);
488  Value first(inside[1],kFALSE);
489  Value second(inside[2],kFALSE);
490  fValOffset = ((TStreamerElement*)pinfo->GetElements()->At(1))->GetOffset();
491 
492  fEnv->fSize = nElements;
493  switch (fSTL_type) {
494  // Simple case: contiguous memory. get address of first, then jump.
495  case ROOT::kSTLvector:
496 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)(((char*)itm) + fValDiff*idx); { x ;} ++idx;} break;}
498  fEnv->fIdx = 0;
499 
500  {
502  iterators.CreateIterators(fEnv->fObject);
503  itm = (StreamHelper*)iterators.fBegin;
504  }
505  fEnv->fStart = itm;
506  switch (fVal->fCase) {
507  case kIsClass:
508  DOLOOP(
509  ReadMapHelper(i, &first, vsn3, b);
510  ReadMapHelper((StreamHelper*)(((char*)i) + fValOffset), &second, vsn3, b)
511  );
512  }
513 #undef DOLOOP
514  break;
515 
516  // No contiguous memory, but resize is possible
517  // Hence accessing objects using At(i) should be not too much an overhead
518  case ROOT::kSTLlist:
520  case ROOT::kSTLdeque:
521 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)TGenCollectionProxy::At(idx); { x ;} ++idx;} break;}
523  fEnv->fIdx = 0;
524  {
526  iterators.CreateIterators(fEnv->fObject);
527  fEnv->fStart = iterators.fBegin;
528  }
529  switch (fVal->fCase) {
530  case kIsClass:
531  DOLOOP(
532  char **where = (char**)(void*) & i;
533  b.ApplySequence(*(pinfo->GetReadObjectWiseActions()), where);
534  );
535  }
536 #undef DOLOOP
537  break;
538 
539  // Rather troublesome case: Objects can only be fed into the container
540  // Once they are created. Need to take memory from stack or heap.
541  case ROOT::kSTLmultiset:
542  case ROOT::kSTLset:
545 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)(((char*)itm) + fValDiff*idx); { x ;} ++idx;}}
546  fEnv->fStart = itm = (StreamHelper*)(len < sizeof(buffer) ? buffer : memory =::operator new(len));
547  fConstruct(itm,nElements);
548  switch (fVal->fCase) {
549  case kIsClass:
550  DOLOOP(
551  char **where = (char**)(void*) & i;
552  b.ApplySequence(*(pinfo->GetReadObjectWiseActions()), where);
553  );
556  break;
557  }
558 #undef DOLOOP
559  break;
560  default:
561  break;
562  }
563  if (memory) {
564  ::operator delete(memory);
565  }
566 }
567 
568 
570 {
571  // helper class to read std::map
572 
573  float f;
574 
575  switch (v->fCase) {
576  case kIsFundamental: // Only handle primitives this way
577  case kIsEnum:
578  switch (int(v->fKind)) {
579  case kBool_t:
580  b >> i->boolean;
581  break;
582  case kChar_t:
583  b >> i->s_char;
584  break;
585  case kShort_t:
586  b >> i->s_short;
587  break;
588  case kInt_t:
589  b >> i->s_int;
590  break;
591  case kLong_t:
592  b >> i->s_long;
593  break;
594  case kLong64_t:
595  b >> i->s_longlong;
596  break;
597  case kFloat_t:
598  b >> i->flt;
599  break;
600  case kFloat16_t:
601  b >> f;
602  i->flt = float(f);
603  break;
604  case kDouble_t:
605  b >> i->dbl;
606  break;
607  case kUChar_t:
608  b >> i->u_char;
609  break;
610  case kUShort_t:
611  b >> i->u_short;
612  break;
613  case kUInt_t:
614  b >> i->u_int;
615  break;
616  case kULong_t:
617  b >> i->u_long;
618  break;
619  case kULong64_t:
620  b >> i->u_longlong;
621  break;
622  case kDouble32_t:
623  b >> f;
624  i->dbl = double(f);
625  break;
626  case kchar:
627  case kNoType_t:
628  case kOther_t:
629  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", v->fKind);
630  }
631  break;
632  case kIsClass:
633  b.StreamObject(i, v->fType);
634  break;
635  case kBIT_ISSTRING:
636  i->read_std_string(b);
637  break;
638  case kIsPointer | kIsClass:
639  i->set(b.ReadObjectAny(v->fType));
640  break;
641  case kIsPointer | kBIT_ISSTRING:
643  break;
645  i->read_tstring_pointer(vsn3, b);
646  break;
647  }
648 }
649 
650 template <typename To>
651 To readOneValue(TBuffer &b, int readtype) {
654  switch (readtype) {
655  case kBool_t:
656  b >> i->boolean;
657  return (To)i->boolean;
658  break;
659  case kChar_t:
660  b >> i->s_char;
661  return (To)i->s_char;
662  break;
663  case kShort_t:
664  b >> i->s_short;
665  return (To)i->s_short;
666  break;
667  case kInt_t:
668  b >> i->s_int;
669  return (To)i->s_int;
670  break;
671  case kLong_t:
672  b >> i->s_long;
673  return (To)i->s_long;
674  break;
675  case kLong64_t:
676  b >> i->s_longlong;
677  return (To)i->s_longlong;
678  break;
679  case kFloat_t:
680  b >> i->flt;
681  return (To)i->flt;
682  break;
683  case kFloat16_t:
684  b >> i->flt;
685  return (To)i->flt;
686  break;
687  case kDouble_t:
688  b >> i->dbl;
689  return (To)i->dbl;
690  break;
691  case kUChar_t:
692  b >> i->u_char;
693  return (To)i->u_char;
694  break;
695  case kUShort_t:
696  b >> i->u_short;
697  return (To)i->u_short;
698  break;
699  case kUInt_t:
700  b >> i->u_int;
701  return (To)i->u_int;
702  break;
703  case kULong_t:
704  b >> i->u_long;
705  return (To)i->u_long;
706  break;
707  case kULong64_t:
708  b >> i->u_longlong;
709  return (To)i->u_longlong;
710  break;
711  case kDouble32_t: {
712  float f;
713  b >> f;
714  i->dbl = double(f);
715  return (To)i->dbl;
716  break;
717  }
718  case kchar:
719  case kNoType_t:
720  case kOther_t:
721  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", readtype);
722  }
723  return 0;
724 }
725 
726 
727 void TGenCollectionStreamer::ReadMap(int nElements, TBuffer &b, const TClass *onFileClass)
728 {
729  // Map input streamer.
730  Bool_t vsn3 = b.GetInfo() && b.GetInfo()->GetOldVersion() <= 3;
731  size_t len = fValDiff * nElements;
732  Value *v;
733  char buffer[8096], *addr, *temp;
734  void* memory = 0;
735  StreamHelper* i;
736  float f;
737  fEnv->fSize = nElements;
738  fEnv->fStart = (len < sizeof(buffer) ? buffer : memory =::operator new(len));
739  addr = temp = (char*)fEnv->fStart;
740  fConstruct(addr,nElements);
741 
742  int onFileValueKind[2];
743  if (onFileClass) {
744  TClass *onFileValueClass = onFileClass->GetCollectionProxy()->GetValueClass();
745  TVirtualStreamerInfo *sourceInfo = onFileValueClass->GetStreamerInfo();
746  onFileValueKind[0] = ((TStreamerElement*)sourceInfo->GetElements()->At(0))->GetType();
747  onFileValueKind[1] = ((TStreamerElement*)sourceInfo->GetElements()->At(1))->GetType();
748  }
749  for (int loop, idx = 0; idx < nElements; ++idx) {
750  addr = temp + fValDiff * idx;
751  v = fKey;
752  for (loop = 0; loop < 2; loop++) {
753  i = (StreamHelper*)addr;
754  switch (v->fCase) {
755  case kIsFundamental: // Only handle primitives this way
756  case kIsEnum:
757  if (onFileClass) {
758  int readtype = (int)(onFileValueKind[loop]);
759  switch (int(v->fKind)) {
760  case kBool_t:
761  i->boolean = readOneValue<bool>(b,readtype);
762  break;
763  case kChar_t:
764  i->s_char = readOneValue<Char_t>(b,readtype);
765  break;
766  case kShort_t:
767  i->s_short = readOneValue<Short_t>(b,readtype);
768  break;
769  case kInt_t:
770  i->s_int = readOneValue<Int_t>(b,readtype);
771  break;
772  case kLong_t:
773  i->s_long = readOneValue<Long_t>(b,readtype);
774  break;
775  case kLong64_t:
776  i->s_longlong = readOneValue<Long64_t>(b,readtype);
777  break;
778  case kFloat_t:
779  i->flt = readOneValue<Float_t>(b,readtype);
780  break;
781  case kFloat16_t:
782  i->flt = readOneValue<Float16_t>(b,readtype);
783  break;
784  case kDouble_t:
785  i->dbl = readOneValue<Double_t>(b,readtype);
786  break;
787  case kUChar_t:
788  i->u_char = readOneValue<UChar_t>(b,readtype);
789  break;
790  case kUShort_t:
791  i->u_short = readOneValue<UShort_t>(b,readtype);
792  break;
793  case kUInt_t:
794  i->u_int = readOneValue<UInt_t>(b,readtype);
795  break;
796  case kULong_t:
797  i->u_long = readOneValue<ULong_t>(b,readtype);
798  break;
799  case kULong64_t:
800  i->u_longlong = readOneValue<ULong64_t>(b,readtype);
801  break;
802  case kDouble32_t:
803  i->dbl = readOneValue<Double32_t>(b,readtype);
804  break;
805  case kchar:
806  case kNoType_t:
807  case kOther_t:
808  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", v->fKind);
809  }
810  } else {
811  switch (int(v->fKind)) {
812  case kBool_t:
813  b >> i->boolean;
814  break;
815  case kChar_t:
816  b >> i->s_char;
817  break;
818  case kShort_t:
819  b >> i->s_short;
820  break;
821  case kInt_t:
822  b >> i->s_int;
823  break;
824  case kLong_t:
825  b >> i->s_long;
826  break;
827  case kLong64_t:
828  b >> i->s_longlong;
829  break;
830  case kFloat_t:
831  b >> i->flt;
832  break;
833  case kFloat16_t:
834  b >> f;
835  i->flt = float(f);
836  break;
837  case kDouble_t:
838  b >> i->dbl;
839  break;
840  case kUChar_t:
841  b >> i->u_char;
842  break;
843  case kUShort_t:
844  b >> i->u_short;
845  break;
846  case kUInt_t:
847  b >> i->u_int;
848  break;
849  case kULong_t:
850  b >> i->u_long;
851  break;
852  case kULong64_t:
853  b >> i->u_longlong;
854  break;
855  case kDouble32_t:
856  b >> f;
857  i->dbl = double(f);
858  break;
859  case kchar:
860  case kNoType_t:
861  case kOther_t:
862  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", v->fKind);
863  }
864  }
865  break;
866  case kIsClass:
867  b.StreamObject(i, v->fType);
868  break;
869  case EProperty(kBIT_ISSTRING):
870  i->read_std_string(b);
871  break;
872  case EProperty(kIsPointer | kIsClass):
873  i->set(b.ReadObjectAny(v->fType));
874  break;
877  break;
879  i->read_tstring_pointer(vsn3, b);
880  break;
881  }
882  v = fVal;
883  addr += fValOffset;
884  }
885  }
888  if (memory) {
889  ::operator delete(memory);
890  }
891 }
892 
894 {
895  // Primitive output streamer.
896  size_t len = fValDiff * nElements;
897  char buffer[8192];
898  void* memory = 0;
899  StreamHelper* itm = 0;
900  switch (fSTL_type) {
901  case ROOT::kSTLvector:
902  if (fVal->fKind != kBool_t) {
903  itm = (StreamHelper*)(fEnv->fStart = fFirst.invoke(fEnv));
904  break;
905  }
906  default:
907  fEnv->fStart = itm = (StreamHelper*)(len < sizeof(buffer) ? buffer : memory =::operator new(len));
908  fCollect(fEnv->fObject,itm);
909  break;
910  }
911  switch (int(fVal->fKind)) {
912  case kBool_t:
913  b.WriteFastArray(&itm->boolean , nElements);
914  break;
915  case kChar_t:
916  b.WriteFastArray(&itm->s_char , nElements);
917  break;
918  case kShort_t:
919  b.WriteFastArray(&itm->s_short , nElements);
920  break;
921  case kInt_t:
922  b.WriteFastArray(&itm->s_int , nElements);
923  break;
924  case kLong_t:
925  b.WriteFastArray(&itm->s_long , nElements);
926  break;
927  case kLong64_t:
928  b.WriteFastArray(&itm->s_longlong, nElements);
929  break;
930  case kFloat_t:
931  b.WriteFastArray(&itm->flt , nElements);
932  break;
933  case kFloat16_t:
934  b.WriteFastArrayFloat16(&itm->flt, nElements);
935  break;
936  case kDouble_t:
937  b.WriteFastArray(&itm->dbl , nElements);
938  break;
939  case kUChar_t:
940  b.WriteFastArray(&itm->u_char , nElements);
941  break;
942  case kUShort_t:
943  b.WriteFastArray(&itm->u_short , nElements);
944  break;
945  case kUInt_t:
946  b.WriteFastArray(&itm->u_int , nElements);
947  break;
948  case kULong_t:
949  b.WriteFastArray(&itm->u_long , nElements);
950  break;
951  case kULong64_t:
952  b.WriteFastArray(&itm->u_longlong, nElements);
953  break;
954  case kDouble32_t:
955  b.WriteFastArrayDouble32(&itm->dbl, nElements);
956  break;
957  case kchar:
958  case kNoType_t:
959  case kOther_t:
960  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", fVal->fKind);
961  }
962  if (memory) {
963  ::operator delete(memory);
964  }
965 }
966 
968 {
969  // Object output streamer.
970  StreamHelper* itm = 0;
971  switch (fSTL_type) {
972  // Simple case: contiguous memory. get address of first, then jump.
973  case ROOT::kSTLvector:
974 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)(((char*)itm) + fValDiff*idx); { x ;} ++idx;} break;}
975  itm = (StreamHelper*)fFirst.invoke(fEnv);
976  switch (fVal->fCase) {
977  case kIsClass:
978  DOLOOP(b.StreamObject(i, fVal->fType));
979  break;
980  case kBIT_ISSTRING:
981  DOLOOP(TString(i->c_str()).Streamer(b));
982  break;
983  case kIsPointer | kIsClass:
984  DOLOOP(b.WriteObjectAny(i->ptr(), fVal->fType));
985  break;
986  case kBIT_ISSTRING | kIsPointer:
987  DOLOOP(i->write_std_string_pointer(b));
988  break;
990  DOLOOP(i->write_tstring_pointer(b));
991  break;
992  }
993 #undef DOLOOP
994  break;
995 
996  // No contiguous memory, but resize is possible
997  // Hence accessing objects using At(i) should be not too much an overhead
998  case ROOT::kSTLlist:
1000  case ROOT::kSTLdeque:
1001  case ROOT::kSTLmultiset:
1002  case ROOT::kSTLset:
1005 #define DOLOOP(x) {int idx=0; while(idx<nElements) {StreamHelper* i=(StreamHelper*)TGenCollectionProxy::At(idx); { x ;} ++idx;} break;}
1006  switch (fVal->fCase) {
1007  case kIsClass:
1008  DOLOOP(b.StreamObject(i, fVal->fType));
1009  case kBIT_ISSTRING:
1010  DOLOOP(TString(i->c_str()).Streamer(b));
1011  case kIsPointer | kIsClass:
1012  DOLOOP(b.WriteObjectAny(i->ptr(), fVal->fType));
1013  case kBIT_ISSTRING | kIsPointer:
1014  DOLOOP(i->write_std_string_pointer(b));
1016  DOLOOP(i->write_tstring_pointer(b));
1017  }
1018 #undef DOLOOP
1019  break;
1020  default:
1021  break;
1022  }
1023 }
1024 
1026 {
1027  // Map output streamer
1028  StreamHelper* i;
1029  Value *v;
1030 
1031  for (int loop, idx = 0; idx < nElements; ++idx) {
1032  char* addr = (char*)TGenCollectionProxy::At(idx);
1033  v = fKey;
1034  for (loop = 0; loop < 2; ++loop) {
1035  i = (StreamHelper*)addr;
1036  switch (v->fCase) {
1037  case kIsFundamental: // Only handle primitives this way
1038  case kIsEnum:
1039  switch (int(v->fKind)) {
1040  case kBool_t:
1041  b << i->boolean;
1042  break;
1043  case kChar_t:
1044  b << i->s_char;
1045  break;
1046  case kShort_t:
1047  b << i->s_short;
1048  break;
1049  case kInt_t:
1050  b << i->s_int;
1051  break;
1052  case kLong_t:
1053  b << i->s_long;
1054  break;
1055  case kLong64_t:
1056  b << i->s_longlong;
1057  break;
1058  case kFloat_t:
1059  b << i->flt;
1060  break;
1061  case kFloat16_t:
1062  b << float(i->flt);
1063  break;
1064  case kDouble_t:
1065  b << i->dbl;
1066  break;
1067  case kUChar_t:
1068  b << i->u_char;
1069  break;
1070  case kUShort_t:
1071  b << i->u_short;
1072  break;
1073  case kUInt_t:
1074  b << i->u_int;
1075  break;
1076  case kULong_t:
1077  b << i->u_long;
1078  break;
1079  case kULong64_t:
1080  b << i->u_longlong;
1081  break;
1082  case kDouble32_t:
1083  b << float(i->dbl);
1084  break;
1085  case kchar:
1086  case kNoType_t:
1087  case kOther_t:
1088  Error("TGenCollectionStreamer", "fType %d is not supported yet!\n", v->fKind);
1089  }
1090  break;
1091  case kIsClass:
1092  b.StreamObject(i, v->fType);
1093  break;
1094  case kBIT_ISSTRING:
1095  TString(i->c_str()).Streamer(b);
1096  break;
1097  case kIsPointer | kIsClass:
1098  b.WriteObjectAny(i->ptr(), v->fType);
1099  break;
1100  case kBIT_ISSTRING | kIsPointer:
1102  break;
1104  i->write_tstring_pointer(b);
1105  break;
1106  }
1107  addr += fValOffset;
1108  v = fVal;
1109  }
1110  }
1111 }
1112 
1113 template <typename From, typename To>
1115 {
1116  From *temp = new From[nElements];
1117  b.ReadFastArray(temp, nElements);
1118  std::vector<To> *const vec = (std::vector<To>*)(obj);
1119  for(Int_t ind = 0; ind < nElements; ++ind) {
1120  (*vec)[ind] = (To)temp[ind];
1121  }
1122  delete [] temp;
1123 }
1124 
1125 template <typename To>
1127 {
1128  Float16_t *temp = new Float16_t[nElements];
1129  b.ReadFastArrayFloat16(temp, nElements);
1130  std::vector<To> *const vec = (std::vector<To>*)(obj);
1131  for(Int_t ind = 0; ind < nElements; ++ind) {
1132  (*vec)[ind] = (To)temp[ind];
1133  }
1134  delete [] temp;
1135 }
1136 
1137 template <typename To>
1139 {
1140  Double32_t *temp = new Double32_t[nElements];
1141  b.ReadFastArrayDouble32(temp, nElements);
1142  std::vector<To> *const vec = (std::vector<To>*)(obj);
1143  for(Int_t ind = 0; ind < nElements; ++ind) {
1144  (*vec)[ind] = (To)temp[ind];
1145  }
1146  delete [] temp;
1147 }
1148 
1149 template <typename To>
1151 {
1152  switch ((TStreamerInfo::EReadWrite)onFileProxy->GetType()) {
1153  case TStreamerInfo::kBool: ConvertBufferVectorPrimitives<Bool_t ,To>(b,obj,nElements); break;
1154  case TStreamerInfo::kChar: ConvertBufferVectorPrimitives<Char_t ,To>(b,obj,nElements); break;
1155  case TStreamerInfo::kShort: ConvertBufferVectorPrimitives<Short_t ,To>(b,obj,nElements); break;
1156  case TStreamerInfo::kInt: ConvertBufferVectorPrimitives<Int_t ,To>(b,obj,nElements); break;
1157  case TStreamerInfo::kLong: ConvertBufferVectorPrimitives<Long_t ,To>(b,obj,nElements); break;
1158  case TStreamerInfo::kLong64: ConvertBufferVectorPrimitives<Long64_t ,To>(b,obj,nElements); break;
1159  case TStreamerInfo::kFloat: ConvertBufferVectorPrimitives<Float_t ,To>(b,obj,nElements); break;
1160  case TStreamerInfo::kFloat16: ConvertBufferVectorPrimitives<Float16_t ,To>(b,obj,nElements); break;
1161  case TStreamerInfo::kDouble: ConvertBufferVectorPrimitives<Double_t ,To>(b,obj,nElements); break;
1162  case TStreamerInfo::kDouble32: ConvertBufferVectorPrimitives<Double32_t,To>(b,obj,nElements); break;
1163  case TStreamerInfo::kUChar: ConvertBufferVectorPrimitives<UChar_t ,To>(b,obj,nElements); break;
1164  case TStreamerInfo::kUShort: ConvertBufferVectorPrimitives<UShort_t ,To>(b,obj,nElements); break;
1165  case TStreamerInfo::kUInt: ConvertBufferVectorPrimitives<UInt_t ,To>(b,obj,nElements); break;
1166  case TStreamerInfo::kULong: ConvertBufferVectorPrimitives<ULong_t ,To>(b,obj,nElements); break;
1167  case TStreamerInfo::kULong64: ConvertBufferVectorPrimitives<ULong64_t ,To>(b,obj,nElements); break;
1168  default: break;
1169  }
1170 }
1171 
1172 template <typename basictype>
1174 {
1175  int nElements = 0;
1176  b >> nElements;
1177  fResize(obj,nElements);
1178 
1179  if (onFileClass) {
1180  DispatchConvertBufferVectorPrimitives<basictype>(b,obj,nElements,onFileClass->GetCollectionProxy());
1181  } else {
1183  iterators.CreateIterators(obj);
1184  b.ReadFastArray((basictype*)iterators.fBegin, nElements);
1185  }
1186 }
1187 
1189 {
1190  int nElements = 0;
1191  b >> nElements;
1192  fResize(obj,nElements);
1193 
1194  if (onFileClass) {
1195  DispatchConvertBufferVectorPrimitives<Float16_t>(b,obj,nElements,onFileClass->GetCollectionProxy());
1196  } else {
1198  iterators.CreateIterators(obj);
1199  b.ReadFastArrayFloat16((Float16_t*)iterators.fBegin, nElements);
1200  }
1201 }
1202 
1204 {
1205  int nElements = 0;
1206  b >> nElements;
1207  fResize(obj,nElements);
1208 
1209  if (onFileClass) {
1210  DispatchConvertBufferVectorPrimitives<Double32_t>(b,obj,nElements,onFileClass->GetCollectionProxy());
1211  } else {
1213  iterators.CreateIterators(obj);
1214  b.ReadFastArrayDouble32((Double32_t*)iterators.fBegin, nElements);
1215  }
1216 }
1217 
1218 
1219 
1220 void TGenCollectionStreamer::ReadBuffer(TBuffer &b, void *obj, const TClass *onFileClass)
1221 {
1222  // Call the specialized function. The first time this call ReadBufferDefault which
1223  // actually set to fReadBufferFunc to the 'right' specialized version.
1224 
1225  (this->*fReadBufferFunc)(b,obj,onFileClass);
1226 }
1227 
1229 {
1230  // Call the specialized function. The first time this call ReadBufferDefault which
1231  // actually set to fReadBufferFunc to the 'right' specialized version.
1232 
1233  (this->*fReadBufferFunc)(b,obj,0);
1234 }
1235 
1236 void TGenCollectionStreamer::ReadBufferDefault(TBuffer &b, void *obj, const TClass *onFileClass)
1237 {
1238 
1240 
1241  // We will need this later, so let's make sure it is initialized.
1242  if ( !fValue.load() ) InitializeEx(kFALSE);
1243  if (!GetFunctionCreateIterators()) {
1244  Fatal("TGenCollectionStreamer::ReadBufferDefault","No CreateIterators function for %s",fName.c_str());
1245  }
1247  {
1248  // Only handle primitives this way
1249  switch (int(fVal->fKind)) {
1250  case kBool_t:
1251  // Nothing use generic for now
1252  break;
1253  case kChar_t:
1254  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<Char_t>;
1255  break;
1256  case kShort_t:
1257  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<Short_t>;
1258  break;
1259  case kInt_t:
1260  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<Int_t>;
1261  break;
1262  case kLong_t:
1263  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<Long_t>;
1264  break;
1265  case kLong64_t:
1266  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<Long64_t>;
1267  break;
1268  case kFloat_t:
1269  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<Float_t>;
1270  break;
1271  case kFloat16_t:
1273  break;
1274  case kDouble_t:
1275  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<Double_t>;
1276  break;
1277  case kUChar_t:
1278  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<UChar_t>;
1279  break;
1280  case kUShort_t:
1281  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<UShort_t>;
1282  break;
1283  case kUInt_t:
1284  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<UInt_t>;
1285  break;
1286  case kULong_t:
1287  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<ULong_t>;
1288  break;
1289  case kULong64_t:
1290  fReadBufferFunc = &TGenCollectionStreamer::ReadBufferVectorPrimitives<ULong64_t>;
1291  break;
1292  case kDouble32_t:
1294  break;
1295  case kchar:
1296  case kNoType_t:
1297  case kOther_t:
1298  // Nothing use the generic for now
1299  break;
1300  }
1301  }
1302  (this->*fReadBufferFunc)(b,obj,onFileClass);
1303 }
1304 
1305 void TGenCollectionStreamer::ReadBufferGeneric(TBuffer &b, void *obj, const TClass *onFileClass)
1306 {
1307  TVirtualCollectionProxy::TPushPop env(this, obj);
1308 
1309  int nElements = 0;
1310  b >> nElements;
1311 
1312  if (nElements == 0) {
1313  if (obj) {
1314  TGenCollectionProxy::Clear("force");
1315  }
1316  } else if (nElements > 0) {
1317  switch (fSTL_type) {
1318  case ROOT::kSTLbitset:
1319  if (obj) {
1320  if (fProperties & kNeedDelete) {
1321  TGenCollectionProxy::Clear("force");
1322  } else {
1323  fClear.invoke(fEnv);
1324  }
1325  }
1326  ReadPrimitives(nElements, b, onFileClass);
1327  return;
1328  case ROOT::kSTLvector:
1329  if (obj) {
1330  if (fProperties & kNeedDelete) {
1331  TGenCollectionProxy::Clear("force");
1332  } // a resize will be called in ReadPrimitives/ReadObjects.
1333  else if (fVal->fKind == kBool_t) {
1334  fClear.invoke(fEnv);
1335  }
1336  }
1337  switch (fVal->fCase) {
1338  case kIsFundamental: // Only handle primitives this way
1339  case kIsEnum:
1340  ReadPrimitives(nElements, b, onFileClass);
1341  return;
1342  default:
1343  ReadObjects(nElements, b, onFileClass);
1344  return;
1345  }
1346  break;
1347  case ROOT::kSTLlist:
1348  case ROOT::kSTLforwardlist:
1349  case ROOT::kSTLdeque:
1350  case ROOT::kSTLmultiset:
1351  case ROOT::kSTLset:
1354  if (obj) {
1355  if (fProperties & kNeedDelete) {
1356  TGenCollectionProxy::Clear("force");
1357  } else {
1358  fClear.invoke(fEnv);
1359  }
1360  }
1361  switch (fVal->fCase) {
1362  case kIsFundamental: // Only handle primitives this way
1363  case kIsEnum:
1364  ReadPrimitives(nElements, b, onFileClass);
1365  return;
1366  default:
1367  ReadObjects(nElements, b, onFileClass);
1368  return;
1369  }
1370  break;
1371  case ROOT::kSTLmap:
1372  case ROOT::kSTLmultimap:
1375  if (obj) {
1376  if (fProperties & kNeedDelete) {
1377  TGenCollectionProxy::Clear("force");
1378  } else {
1379  fClear.invoke(fEnv);
1380  }
1381  }
1382  ReadMap(nElements, b, onFileClass);
1383  break;
1384  }
1385  }
1386 }
1387 
1389 {
1390  // TClassStreamer IO overload.
1391  if (b.IsReading()) { //Read mode
1392  int nElements = 0;
1393  b >> nElements;
1394  if (fEnv->fObject) {
1395  TGenCollectionProxy::Clear("force");
1396  }
1397  if (nElements > 0) {
1398  switch (fSTL_type) {
1399  case ROOT::kSTLbitset:
1400  ReadPrimitives(nElements, b, fOnFileClass);
1401  return;
1402  case ROOT::kSTLvector:
1403  case ROOT::kSTLlist:
1404  case ROOT::kSTLdeque:
1405  case ROOT::kSTLmultiset:
1406  case ROOT::kSTLset:
1409  switch (fVal->fCase) {
1410  case kIsFundamental: // Only handle primitives this way
1411  case kIsEnum:
1412  ReadPrimitives(nElements, b, fOnFileClass);
1413  return;
1414  default:
1415  ReadObjects(nElements, b, fOnFileClass);
1416  return;
1417  }
1418  break;
1419  case ROOT::kSTLmap:
1420  case ROOT::kSTLmultimap:
1423  ReadMap(nElements, b, fOnFileClass);
1424  break;
1425  }
1426  }
1427  } else { // Write case
1428  int nElements = fEnv->fObject ? *(size_t*)fSize.invoke(fEnv) : 0;
1429  b << nElements;
1430  if (nElements > 0) {
1431  switch (fSTL_type) {
1432  case ROOT::kSTLbitset:
1433  WritePrimitives(nElements, b);
1434  return;
1435  case ROOT::kSTLvector:
1436  case ROOT::kSTLlist:
1437  case ROOT::kSTLforwardlist:
1438  case ROOT::kSTLdeque:
1439  case ROOT::kSTLmultiset:
1440  case ROOT::kSTLset:
1443  switch (fVal->fCase) {
1444  case kIsFundamental: // Only handle primitives this way
1445  case kIsEnum:
1446  WritePrimitives(nElements, b);
1447  return;
1448  default:
1449  WriteObjects(nElements, b);
1450  return;
1451  }
1452  break;
1453  case ROOT::kSTLmap:
1454  case ROOT::kSTLmultimap:
1457  WriteMap(nElements, b);
1458  break;
1459  }
1460  }
1461  }
1462 }
1463 
1465 {
1466  // TClassStreamer IO overload.
1467  if (b.IsReading()) { //Read mode
1468  int nElements = 0;
1469  b >> nElements;
1470  if (fEnv->fObject) {
1471  TGenCollectionProxy::Clear("force");
1472  }
1473  if (nElements > 0) {
1474  switch (fSTL_type) {
1475  case ROOT::kSTLmap:
1476  case ROOT::kSTLmultimap:
1479  ReadMap(nElements, b, fOnFileClass);
1480  break;
1481  case ROOT::kSTLvector:
1482  case ROOT::kSTLlist:
1483  case ROOT::kSTLforwardlist:
1484  case ROOT::kSTLdeque:
1485  case ROOT::kSTLmultiset:
1486  case ROOT::kSTLset:
1489  ReadPairFromMap(nElements, b);
1490  break;
1491  }
1492  default:
1493  break;
1494  }
1495  }
1496  } else { // Write case
1497  Streamer(b);
1498  }
1499 }
Describe Streamer information for one class version.
Definition: TStreamerInfo.h:47
Method fSize
Container accessors: size of container.
virtual const char * GetName() const
Returns name of object.
Definition: TNamed.h:51
UShort_t * getaddress< UShort_t >(TGenCollectionProxy::StreamHelper &itm)
Bool_t IsReading() const
Definition: TBuffer.h:83
double read(const std::string &file_name)
reading
virtual void ReadBuffer(TBuffer &b, void *obj, const TClass *onfileClass)
virtual void WriteFastArrayFloat16(const Float_t *f, Int_t n, TStreamerElement *ele=0)=0
long long Long64_t
Definition: RtypesCore.h:69
void ReadBufferVectorPrimitivesDouble32(TBuffer &b, void *obj, const TClass *onFileClass)
void CreateIterators(void *collection)
ULong_t * getaddress< ULong_t >(TGenCollectionProxy::StreamHelper &itm)
void WriteMap(int nElements, TBuffer &b)
double write(int n, const std::string &file_name, const std::string &vector_type, int compress=0)
writing
void Fatal(const char *location, const char *msgfmt,...)
virtual TVirtualCollectionProxy * Generate() const
Virtual copy constructor.
float Float_t
Definition: RtypesCore.h:53
Equal to TDataType&#39;s kchar.
Collectfunc_t fCollect
Method to collect objects from container.
std::string fName
Name of the class being proxied.
virtual TClass * GetValueClass() const =0
int GetSplit(const char *type, std::vector< std::string > &output, int &nestedLoc, EModType mode=TClassEdit::kNone)
Stores in output (after emptying it) the split type.
Definition: TClassEdit.cxx:938
double T(double x)
Definition: ChebyshevPol.h:34
virtual Int_t WriteObjectAny(const void *obj, const TClass *ptrClass)=0
unsigned short UShort_t
Definition: RtypesCore.h:36
Char_t * getaddress< Char_t >(TGenCollectionProxy::StreamHelper &itm)
static T * getaddress(TGenCollectionProxy::StreamHelper &itm)
TVirtualStreamerInfo * GetStreamerInfo(Int_t version=0) const
returns a pointer to the TVirtualStreamerInfo object for version If the object does not exist...
Definition: TClass.cxx:4368
Method fFirst
Container accessors: generic iteration: first.
Buffer base class used for serializing objects.
Definition: TBuffer.h:42
void ReadBufferGeneric(TBuffer &b, void *obj, const TClass *onFileClass)
#define R__ASSERT(e)
Definition: TError.h:98
virtual EDataType GetType() const
If the content is a simple numerical value, return its type (see TDataType)
TClass * fOnFileClass
On file class.
Basic string class.
Definition: TString.h:137
Feedfunc_t fFeed
Container accessors: block feed.
TVirtualCollectionProxy * GetCollectionProxy() const
Return the proxy describing the collection (if any).
Definition: TClass.cxx:2822
TGenCollectionStreamer(const TGenCollectionStreamer &copy)
int Int_t
Definition: RtypesCore.h:41
bool Bool_t
Definition: RtypesCore.h:59
const Bool_t kFALSE
Definition: Rtypes.h:92
TObject * At(Int_t idx) const
Definition: TObjArray.h:167
void ReadPrimitives(int nElements, TBuffer &b, const TClass *onfileClass)
UInt_t fCase
type of data of Value_type
void DispatchConvertArray(int writeType, TGenCollectionProxy::StreamHelper *read, TGenCollectionProxy::StreamHelper *write, int nElements)
virtual EDataType GetType() const =0
Sizing_t fResize
Container accessors: resize container.
void ReadPairFromMap(int nElements, TBuffer &b)
virtual TVirtualStreamerInfo * GetInfo()=0
void * invoke(void *obj) const
V GetOffset(E val1, E val2, V iso)
Long64_t * getaddress< Long64_t >(TGenCollectionProxy::StreamHelper &itm)
virtual void StreamerAsMap(TBuffer &refBuffer)
void ConvertBufferVectorPrimitives(TBuffer &b, void *obj, Int_t nElements)
float Float16_t
Definition: RtypesCore.h:54
To readOneValue(TBuffer &b, int readtype)
virtual CreateIterators_t GetFunctionCreateIterators(Bool_t read=kTRUE)
See typedef void (*CreateIterators_t)(void *collection, void *&begin_arena, void *&end_arena); begin_...
void WritePrimitives(int nElements, TBuffer &b)
Short_t * getaddress< Short_t >(TGenCollectionProxy::StreamHelper &itm)
void WriteObjects(int nElements, TBuffer &b)
Method fClear
Method cache for container accessors: clear container.
double Double32_t
Definition: RtypesCore.h:56
ArrIterfunc_t fConstruct
Container accessors: block construct.
void Error(const char *location, const char *msgfmt,...)
EDataType fKind
kind of ROOT-fundamental type
#define DOLOOP(x)
void ReadBufferDefault(TBuffer &b, void *obj, const TClass *onFileClass)
UChar_t * getaddress< UChar_t >(TGenCollectionProxy::StreamHelper &itm)
int fValOffset
Offset from key to value (in maps)
TGenCollectionProxy * Initialize(Bool_t silent) const
Proxy initializer.
TRandom2 r(17)
virtual void ReadFastArrayDouble32(Double_t *d, Int_t n, TStreamerElement *ele=0)=0
int fSTL_type
STL container type.
SVector< double, 2 > v
Definition: Dict.h:5
Long_t * getaddress< Long_t >(TGenCollectionProxy::StreamHelper &itm)
virtual Int_t ApplySequence(const TStreamerInfoActions::TActionSequence &sequence, void *object)=0
virtual void ReadFastArrayFloat16(Float_t *f, Int_t n, TStreamerElement *ele=0)=0
unsigned int UInt_t
Definition: RtypesCore.h:42
short Short_t
Definition: RtypesCore.h:35
void ReadBufferVectorPrimitivesFloat16(TBuffer &b, void *obj, const TClass *onFileClass)
CreateIterators_t fFunctionCreateIterators
The ROOT global object gROOT contains a list of all defined classes.
Definition: TClass.h:81
void ReadMap(int nElements, TBuffer &b, const TClass *onfileClass)
virtual void ReadFastArray(Bool_t *b, Int_t n)=0
void ConvertBufferVectorPrimitivesDouble32(TBuffer &b, void *obj, Int_t nElements)
virtual void WriteFastArray(const Bool_t *b, Int_t n)=0
int fValDiff
Offset between two consecutive value_types (memory layout).
virtual void StreamObject(void *obj, const std::type_info &typeinfo, const TClass *onFileClass=0)=0
virtual ULong_t GetIncrement() const =0
long Long_t
Definition: RtypesCore.h:50
ULong64_t * getaddress< ULong64_t >(TGenCollectionProxy::StreamHelper &itm)
void ReadBufferVectorPrimitives(TBuffer &b, void *obj, const TClass *onFileClass)
double f(double x)
double Double_t
Definition: RtypesCore.h:55
Float_t * getaddress< Float_t >(TGenCollectionProxy::StreamHelper &itm)
virtual TObjArray * GetElements() const =0
virtual TGenCollectionProxy * InitializeEx(Bool_t silent)
Proxy initializer.
unsigned long long ULong64_t
Definition: RtypesCore.h:70
unsigned long ULong_t
Definition: RtypesCore.h:51
UInt_t * getaddress< UInt_t >(TGenCollectionProxy::StreamHelper &itm)
virtual void * ReadObjectAny(const TClass *cast)=0
virtual Version_t GetOldVersion() const =0
std::atomic< Value * > fValue
Descriptor of the container value type.
TClassRef fType
TClass reference of Value_type in collection.
virtual void Clear(const char *opt="")
Clear the emulated collection.
TObjArray * GetElements() const
virtual void * At(UInt_t idx)
Return the address of the value at index &#39;idx&#39;.
char Char_t
Definition: RtypesCore.h:29
Value * fKey
Descriptor of the key_type.
void ConvertBufferVectorPrimitivesFloat16(TBuffer &b, void *obj, Int_t nElements)
virtual void Streamer(TBuffer &refBuffer)
Streamer Function.
Helper class to facilitate I/O.
Proxy around an arbitrary container, which implements basic functionality and iteration.
EnvironBase_t * fEnv
Address of the currently proxied object.
you should not use this method at all Int_t Int_t Double_t Double_t Double_t Int_t Double_t Double_t Double_t Double_t b
Definition: TRolke.cxx:630
Sizing_t fDestruct
Container accessors: block destruct.
bool * getaddress< bool >(TGenCollectionProxy::StreamHelper &itm)
Int_t * getaddress< Int_t >(TGenCollectionProxy::StreamHelper &itm)
unsigned char UChar_t
Definition: RtypesCore.h:34
Definition: first.py:1
Double_t * getaddress< Double_t >(TGenCollectionProxy::StreamHelper &itm)
TStreamerInfoActions::TActionSequence * GetReadObjectWiseActions()
void ReadObjects(int nElements, TBuffer &b, const TClass *onfileClass)
Abstract Interface class describing Streamer information for one class.
const std::type_info & Info_t
void ReadMapHelper(StreamHelper *i, Value *v, Bool_t vsn3, TBuffer &b)
void DispatchConvertBufferVectorPrimitives(TBuffer &b, void *obj, Int_t nElements, const TVirtualCollectionProxy *onfileProxy)
void ConvertArray(TGenCollectionProxy::StreamHelper *read, TGenCollectionProxy::StreamHelper *write, int nElements)
virtual void WriteFastArrayDouble32(const Double_t *d, Int_t n, TStreamerElement *ele=0)=0
Small helper to describe the Value_type or the key_type of an STL container.
void read_tstring_pointer(Bool_t vsn3, TBuffer &b)
Value * fVal
Descriptor of the Value_type.
EReadWrite
EReadWrite Enumerator Enum Constant Description kBase Base class element kOffsetL Fixed size array k...